Technical Reports & White Papers
- 8) Savunma Sanayi Başkanlığı, Kompozit Teknolojileri Yol Haritası, 2019. (in Turkish) (Presidency of Defense Industry, Composite Technologies Roadmap)
- 7) Buyuk, M., Development of a New Metal Material Model in LS-DYNA, PART 2: Development of a Tabulated Thermo-Viscoplastic Material Model with Regularized Failure for Dynamic Ductile Failure Prediction of Structures under Impact Loading. Federal Aviation Administration, July 2014. Report Number: DOT/FAA/TC-13/25, P2. [LINK]
- 6) Buyuk, M., Loikkanen, M. J., and Kan, C. D. Explicit Finite Element Analysis of 2024-T3/T351 Aluminum Material under Ballistic Impact Loading for Airplane Engine Containment and Fragment Shielding. Federal Aviation Administration, September 2008. Report Number: DOT/FAA/AR-08/36. [LINK]
- 5) Buyuk, M., Marzougui, D., Kan, S., and Kurtaran, H. A Multi-Objective Discrete Design Optimization Algorithm for Portable Concrete Barriers by Coupling Grey Relational Analysis with Successive Taguchi Method. FHWA/NHTSA National Crash Analysis Center, The George Washington University, June 2008. Report Number: NCAC 2007-W-005.
- 4) Buyuk, M. Explicit Finite Element Analysis of 2024-T3/T351 Aluminum Material under Impact Loading for Airplane Engine Containment and Fragment Shielding. Aviation Institute, The George Washington University, Aviation Safety and Security Certificate Program, May 2008.
- 3) Marzougui, D., Buyuk, M., Kan, S., and Opiela, K. S. Safety Performance Evaluation for Combinations of Portable Concrete Barrier Elements. FHWA/NHTSA National Crash Analysis Center, The George Washington University, August 2007. Report Number: NCAC 2007-W-004.
- 2) Marzougui, D., Buyuk, M., and Kan, S. Performance Evaluation of the Portable Concrete Barriers. FHWA/NHTSA National Crash Analysis Center, The George Washington University, January 2007. Report Number: NCAC 2007-R-004.
- 1) Buyuk, M., Kan, C. D. Multi-Scale Finite Element Modeling of Woven-Fabric Composite Materials under Impact Loading. FHWA/NHTSA National Crash Analysis Center, The George Washington University, October 2006.
